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2 points 32 steel pipe type PLC micro splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
Details 白箭头 黑箭头
2 points 4 channels LC-UPC micro PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
Details 白箭头 黑箭头
1 minute 32MINI micro PLC splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
Details 白箭头 黑箭头
1 minute 16 steel tube type micro PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
Details 白箭头 黑箭头
1 minute 16 MINI micro PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
Details 白箭头 黑箭头
1 minute 8 steel tube type micro PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
Details 白箭头 黑箭头
1 minute 8 MINI steel pipe type PIC splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
Details 白箭头 黑箭头
1 minute 4 MINI micro PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
Details 白箭头 黑箭头
1 minute 2 way SC/APC micro splitter
Details 白箭头 黑箭头
1 point 16 ABS box type PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
Details 白箭头 黑箭头
2 points 8 ABS box type PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
Details 白箭头 黑箭头
1 minute 4 ABS box type PLC optical splitter
Optical fiber splitter is a device used to split and combine light wave energy. It distributes the light energy transmitted in one optical fiber to two or more optical fibers according to a predetermined ratio, or combines the light energy transmitted in multiple optical fibers into one optical fiber. According to the principle, optical splitters can be divided into two types: fusion taper type and planar waveguide type. The fusion taper type product is formed by fusion splicing two or more optical fibers on the side; the planar waveguide type is a micro-optical component type product. Photolithography technology forms an optical waveguide on a medium or semiconductor substrate to realize the branch distribution function. The two types of optical splitting principles are similar. They achieve different branching quantities by changing the evanescent field coupling between the fibers (coupling degree, coupling length) and changing the fiber radius. Conversely, multiple optical signals can be combined into one signal. It's called a synthesizer.
Details 白箭头 黑箭头
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Cold aisle module

The cold aisle cabinet is controlled by the airflow of the computer room to save cooling energy consumption and improve the reliability of server operation. Data centers consume huge amounts of electricity. In order to achieve energy conservation and environmental protection, data center standards recommend that data centers adopt hot and cold aisle arrangements for heat dissipation. In actual use, in order to ensure the efficiency of the use of cold air, the cold air passage is closed to form a cold pool. Sliding doors are installed on both sides of the cold pool to facilitate personnel entry. The top is transparent to facilitate the light from inside the computer room to enter the cold pool. Cold aisle cabinet system The top is usually movable, linked with the fire protection system. Once a fire alarm occurs, the top window will automatically fall off to dissipate heat and exhaust smoke from the cold aisle system, and it is also convenient for gas fire extinguishing in the computer room.
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Function expansion of the cold aisle cabinet The cold aisle system can be expanded to install temperature, humidity, smoke, infrared and other sensors in order to monitor the environmental conditions inside the cold aisle system in real time. In addition, in order to ensure the safety of the cold aisle system, the sliding doors on both sides can also be equipped with fingerprint locks, password locks, etc. according to user requirements.

 

There are three types of roof skylights to choose from: fixed skylights, movable skylights, and functional skylights. After the movable sunroof is opened, the clear height of the cold aisle is greater than 2 meters or more, which does not affect the daily maintenance work.

 

 

Schematic diagram of cold aisle

 

■ The cold aisle is a unit modular design, each unit can be installed independently, and can be connected with adjacent units, with strong interchangeability and flexible assembly. The frame is connected horizontally with the horizontal support of the cabinet, in addition to strengthening the channel itself, it also has the function of facilitating expansion.

 

 

Cold aisle design drawing

 

■ A pair of automatic sliding doors are set at the head of the column, and a stack of sliding doors are set at the end of the column, which has a good sealing effect and prevents the flow of hot air from entering the equipment effectively.

 

■ The movable door of the cold aisle is designed to be normally closed, and an automatic door closing device is installed. The door closing device is hidden. The doors are all equipped with buffer and airtight devices to provide better protection. Two-way installation of push-pull handles, opening and closing the door has a good feel, the door and the frame are closely matched, and the gap is less than 3mm.

 

 

Access door open and closed state

 

■ The cold aisle preset port is integrated with the fire control of the machine room, which can automatically open the movable skylight according to the fire control signal (switch signal) and meet the fire protection requirements in the aisle.

 

■ All unit components of the cold aisle are made of good wear resistance, corrosion resistance, fine processing, integral stamping forming, high reliable contact, unit opening life test should be no less than 5000 times, safe and durable without looseness, ensuring airflow output Tightness.

 

■ The integrated control panel skylight is designed at the head end of the cold aisle, and the top of the front of the cabinet is installed through the side panel, and there is no gap leakage to ensure the air organization in the sealed cold aisle. At the same time, a reasonable design position is installed to install smoke, temperature and humidity sensors to detect in the aisle Temperature, smoke value.

 

 

Sensor integrated sunroof design drawing

 

■ Each cold aisle is designed with independent environmental detection, through real-time detection of temperature and humidity in the aisle. There is an observable 7-inch LCD touch screen outside the passage. Monitor the temperature, humidity and atmospheric pressure in the channel. (This item is optional, not standard configuration).

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Address: Xiaoxuzhuang Industrial Zone, Zhouguantun Town, Qing County, Cangzhou City, Hebei Province

Manager:+86-17331733677(Liu Xinli)

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